Center for Ecological Research, Northeast Forestry University, Harbin 150040, PR China.
Key Laboratory of Plant Ecology, Northeast Forestry University, Harbin 150040, PR China.
Ecotoxicol Environ Saf. 2018 Aug 15;157:266-275. doi: 10.1016/j.ecoenv.2018.03.055. Epub 2018 Apr 5.
Cd(II) is one of the most widespread and toxic heavy metals and seriously threatens plant growth, furthermore negatively affecting human health. For survival from this metal stress, plants always fight with Cd(II) toxicity by themselves or using other external factors. The effects of second metals copper (Cu(II)), zinc (Zn(II)) and calcium (Ca(II)) on the Cd(II)-affected root morphology, Cd(II) translocation and metabolic responses in Catharanthus roseus were investigated under hydroponic conditions. We found that the Cd-stressed plants displayed the browning and rot root symptom, excess HO content, lipid peroxidation and Cd(II) accumulation in plants. However, the supplement with second metals largely alleviated Cd-induced toxicity, including browning and rot roots, oxidative stress and internal Cd(II) accumulation. The amended effects at metabolic and transcriptional levels involved in different second metals share either common or divergent strategies. They commonly repressed Cd uptake and promoted Cd(II) translocation from roots to shoots with divergent mechanisms. High Zn(II) could activate MTs expression in roots, while Cu(II) or Ca(II) did not under Cd(II) stress condition. The presence of Ca(II) under Cd stress condition largely initiated occurrence of lateral roots. We then grouped a metabolic diagram integrating terpenoid indole alkaloid (TIA) accumulation and TIA pathway gene expression to elucidate the metabolic response of C. roseus to Cd(II) alone or combined with second metals. The treatment with 100 Cd(II) alone largely promoted accumulation of vinblastine, vindoline, catharanthine and loganin, whereas depressed or little changed the expression levels of genes detected here, compared to 0 Cd(II) control. In the presence of Cd(II), the supplement with second metals displayed specific effect on different alkaloid. Among them, the metal Ca(II) is especially beneficial for serpentine accumulation, Zn(II) mainly promoted tabersonine production. However, the addition of Cu(II) commonly depressed accumulation of most alkaloids detected here. Generally, we presented different mechanisms by which the second metals used to alleviate Cd (II) toxicity. This plant has potential application in phytoremediation of Cd(II), due to relatively substantial accumulation of biomass, as well as secondary metabolites TIAs used as pharmaceutical materials when facing Cd stress.
Cd(II) 是最广泛和毒性最大的重金属之一,严重威胁着植物的生长,进一步影响人类健康。为了在这种金属胁迫下生存,植物总是通过自身或利用其他外部因素来对抗 Cd(II) 的毒性。在水培条件下,研究了第二金属铜 (Cu(II))、锌 (Zn(II)) 和钙 (Ca(II)) 对长春花根形态、Cd(II) 迁移和代谢反应的影响。我们发现,Cd 胁迫下的植物表现出根褐变和腐烂症状、HO 含量增加、脂质过氧化和植物内 Cd(II) 积累。然而,添加第二金属在很大程度上缓解了 Cd 诱导的毒性,包括褐变和腐烂的根、氧化应激和内部 Cd(II) 积累。在不同第二金属参与的代谢和转录水平的修正作用涉及共同或不同的策略。它们共同抑制 Cd 的吸收,并以不同的机制促进 Cd(II)从根部向地上部的迁移。高浓度的 Zn(II) 可以在 Cd(II)胁迫条件下激活 MTs 的表达,而 Cu(II)或 Ca(II)则不能。在 Cd 胁迫条件下,Ca(II)的存在很大程度上引发了侧根的发生。然后,我们将萜类吲哚生物碱(TIA)积累和 TIA 途径基因表达整合到一个代谢图中,以阐明 C. roseus 对 Cd(II)单独或与第二金属联合作用的代谢反应。单独用 100µM Cd(II)处理会大大促进长春碱、长春新碱、长春质碱和文多灵的积累,而与 0µM Cd(II)对照相比,检测到的基因表达水平降低或几乎没有变化。在存在 Cd(II)的情况下,第二金属的添加对不同的生物碱表现出特定的影响。其中,金属 Ca(II)特别有利于蛇根碱的积累,Zn(II)主要促进了塔伯宁的产生。然而,Cu(II)的添加通常会降低大多数生物碱的积累。总的来说,我们提出了第二金属用来缓解 Cd(II)毒性的不同机制。由于生物量相对大量积累,以及在面临 Cd 胁迫时用作药物的次生代谢物 TIAs,这种植物在 Cd(II)的植物修复方面具有潜在的应用价值。
